Title :
Bias field and end effects on the switching thresholds of “pseudo spin valve” memory cells
Author :
Pohm, A.V. ; Everitt, B.A. ; Beech, R.S. ; Daughton, J.M.
Author_Institution :
Nonvolatile Electron., Eden Prairie, MN, USA
fDate :
9/1/1997 12:00:00 AM
Abstract :
It is shown experimentally for 0.4 micron wide “pseudo spin valve” memory cells that a bias field across an element significantly increases or decreases the switching threshold of the thicker films which store the data depending on whether the bias aids or opposes the sense field. This thick layer threshold shift has been modeled with torque equations by treating the magnetic layers as near single domains that strongly interact because of their proximity. Experimentally, it is shown that the length of the end contact regions have a large influence on the threshold field if the contact regions are long enough to hold a domain wall. Short contact regions are a necessary but not sufficient condition to ensure that trapping of a wall at the ends of the elements does not occur
Keywords :
giant magnetoresistance; magnetic domain walls; magnetic film stores; magnetic multilayers; magnetic switching; magnetoresistive devices; torque; 0.4 mum; CoFe-Cu-NiFeCo; GMR sandwich material; bias field effects; data storage; domain wall trapping; end contact regions; magnetic layer interaction; model; near single domains; pseudo spin valve memory cells; sense field; sense lines; switching thresholds; thick layer threshold shift; torque equations; Colossal magnetoresistance; Copper; Equations; Magnetic anisotropy; Magnetic domain walls; Magnetic domains; Magnetic films; Magnetic materials; Magnetic separation; Perpendicular magnetic anisotropy; Spin valves; Sufficient conditions; Switches; Torque;
Journal_Title :
Magnetics, IEEE Transactions on
